Eva Schunder scite author profile

Legionella pneumophila, the causative agent of Legionnaires disease, has a biphasic life cycle with a switch from a replicative to a transmissive phenotype. During the replicative phase, the bacteria grow within host cells in Legionella-containing vacuoles. During the transmissive phenotype and the postexponential (PE) growth phase, the pathogens express virulence factors, become flagellated, and leave the Legionella-containing vacuoles. Using 13 C labeling experiments, we now show that, under in vitro conditions, serine is mainly metabolized during the replicative phase for the biosynthesis of some amino acids and for energy generation. During the PE phase, these carbon fluxes are reduced, and glucose also serves as an additional carbon substrate to feed the biosynthesis of poly-3-hydroxybuyrate (PHB), an essential carbon source for transmissive L. pneumophila. Whole-cell FTIR analysis and comparative isotopologue profiling further reveal that a putative 3-ketothiolase (Lpp1788) and a PHB polymerase (Lpp0650), but not enzymes of the crotonylCoA pathway (Lpp0931-0933) are involved in PHB metabolism during the PE phase. However, the data also reflect that additional bypassing reactions for PHB synthesis exist in agreement with in vivo competition assays using Acanthamoeba castellannii or human macrophage-like U937 cells as host cells. The data suggest that substrate usage and PHB metabolism are coordinated during the life cycle of the pathogen.

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Amino Acid Uptake and Metabolism of Legionella pneumophila Hosted by Acanthamoeba castellanii

Schunder

Gillmaier

Kutzner

et al. 2014

Journal of Biological Chemistry

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Background: Legionella replicates within vacuoles of host cells, but less is known about its metabolism during intracellular growth. Results: Isotopologue profiles of metabolites from Legionella grown in 13 C-prelabeled amoebae provide fingerprints of intracellular metabolism. Conclusion: Host-derived amino acids are efficiently used for bacterial protein biosynthesis. Significance: Isotopologue profiling using 13 C-prelabeled amoebae reflects key metabolic features of intracellular Legionella.

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First indication for a functional CRISPR/Cas system in Francisella tularensis

Schunder

Rydzewski

Grunow

et al. 2013

International Journal of Medical Microbiology

108

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F. tularensis is a zoonotic agent and the subspecies novicida is proposed to be a waterassociated bacterium. The intracellular pathogen Francisella tularensis causes tularemia in humans and is known for its potential to be used as biological threat. We analyzed the genome sequence of F. tularensis subsp. novicida U112 in silico for the presence of a putative functional CRISPR/Cas (Clustered Regularly Interspaced Short Palindromic

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Regulation, Integrase-Dependent Excision, and Horizontal Transfer of Genomic Islands in Legionella pneumophila

et al. 2013

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Legionella pneumophila is a Gram-negative freshwater agent which multiplies in specialized nutrient-rich vacuoles of amoebae. When replicating in human alveolar macrophages, Legionella can cause Legionnaires' disease. Recently, we identified a new type of conjugation/type IVA secretion system (T4ASS) in L. pneumophila Corby (named trb-tra). Analogous versions of trb-tra are localized on the genomic islands Trb-1 and Trb-2. Both can exist as an episomal circular form, and Trb-1 can be transferred horizontally to other Legionella strains by conjugation. In our current work, we discovered the importance of a site-specific integrase (Int-1, lpc2818) for the excision and conjugation process of Trb-1. Furthermore, we identified the genes lvrRABC (lpc2813 to lpc2816) to be involved in the regulation of Trb-1 excision. In addition, we demonstrated for the first time that a Legionella genomic island (LGI) of L. pneumophila Corby (LpcGI-2) encodes a functional type IV secretion system. The island can be transferred horizontally by conjugation and is integrated site specifically into the genome of the transconjugants. LpcGI-2 generates three different episomal forms. The predominant episomal form, form A, is generated integrase dependently (Lpc1833) and transferred by conjugation in a pilT-dependent manner. Therefore, the genomic islands Trb-1 and LpcGI-2 should be classified as integrative and conjugative elements (ICEs). Coculture studies of L. pneumophila wild-type and mutant strains revealed that the int-1 and lvrRABC genes (located on Trb-1) as well as lpc1833 and pilT (located on LpcGI-2) do not influence the in vivo fitness of L. pneumophila in Acanthamoeba castellanii.

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Eva Schunder

Identification and characterization of a new conjugation/type IVA secretion system (trb/tra) of Legionella pneumophila Corby localized on two mobile genomic islands

Growth-related Metabolism of the Carbon Storage Poly-3-hydroxybutyrate in Legionella pneumophila

Amino Acid Uptake and Metabolism of Legionella pneumophila Hosted by Acanthamoeba castellanii

First indication for a functional CRISPR/Cas system in Francisella tularensis

Regulation, Integrase-Dependent Excision, and Horizontal Transfer of Genomic Islands in Legionella pneumophila

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